Fishing pole grip modification system and method of using same

ABSTRACT

In certain embodiments, a system is provided for the efficient removal of an old grip from a fishing pole while maintaining the integrity of the pole. The system can include a removal portion including one or more rotational assemblies that rotate one or more grinding members. The grinding members can include a rotational blade with a centering rod. The rotational assembly can remove the old grip while maintaining the integrity of the rod within. The system can include multiple sets of grinding members that are organized for efficient identification or may include adjustable grinding members that can be configured for specific rods. The system can further include a guide to help identify particular grinding members for use with particular fishing poles.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application claims the benefit of U.S. Provisional PatentApplication No. 61/971,460, filed Mar. 27, 2014 (entitled “FISHING POLEGRIP REMOVER”), the disclosure being hereby incorporated by reference inits entirety.

BACKGROUND OF THE INVENTION

1. Field of the Invention

Certain embodiments disclosed herein relate to systems and methods tofacilitate the modification or change to the handle portions ofarticles, and more particularly to the removal of previously installedfishing pole grips from the handle of the fishing pole and/or theinstallation of a new grip onto a fishing pole.

2. Description of the Related Art

There are many fishing poles used in the sport of fishing. The mostcommon grips have utilized ethylene vinyl acetate or cork to provide agripping surface. They are typically applied to the handle portion ofthe rod in a method that is intended to permanently bond the grip to therod (e.g. require the grip to be destroyed to be removed).

However, new improvements to grips have introduced previouslyunavailable opportunities to enhance various visual and performanceaspects of fishing pole grips. To take advantage of these new grips, asystem and method is needed to remove the old permanently bonded gripsfrom the rods in an effective and efficient manner and to introduce newgrips to the rods.

SUMMARY OF THE INVENTION

In some embodiments, a method is provided for removing an old grip froma fishing pole without destroying the underlying rod. The method caninclude the step of guiding the rod with the old grip through a removalblade to remove the majority of the old grip and grinding the majorityof any remaining grip material from the rod to create a base to supporta new grip. Such base may be substantially smooth. The method canfurther include grinding or drilling a hole at the end of the old gripprior to guiding the rod through the removal blade.

In some embodiments, a method is provided for removing an old grip froma fishing pole without destroying the underlying rod and introducing anew grip to replace the old grip. The method can includes the step ofguiding the rod with the old grip through a removal blade to remove themajority of the old grip. The method can also include subsequentgrinding of any remaining grip material from the rod to create asubstantially smooth surface at the handle portion of the rod. Anadhesive agent, for example double sided tape, can be applied to thehandle portion of the rod. A grip installation solution can be appliedto the tape to facilitate application of a new grip onto the handleportion of the rod and a new grip can be slid over to the handleportion.

In some embodiments, a method is provided for removing an old grip froma fishing pole without destroying the underlying rod. The method caninclude the step of guiding the rod with the old grip through a removalblade to remove the majority of the old grip to create a base which maybe substantially smooth. The method can further include grinding ordrilling a hole at the end of the old grip prior to guiding the rodthrough the removal blade.

In some embodiments, a method is provided for removing an old grip froma fishing pole without destroying the underlying rod and introducing anew grip to replace the old grip. The method can includes the steps ofguiding the rod with the old grip through a removal blade to remove themajority of the old grip to create a substantially smooth surface at thehandle portion of the rod. The method can further include grinding ordrilling a hold at the end of the old grip prior to guiding the rodthrough the removal blade. An adhesive agent, for example double sidedtape, can be applied to the handle portion of the rod. A gripinstallation solution can be applied to the tape to facilitateapplication of a new grip onto the handle portion of the rod and a newgrip can be slid over to the handle portion.

In some embodiments, a system is provided for removing an old grip froma fishing pole as shown in the figures. The system can include a removalportion configured to facilitate the removal of an old grip. The removalportion can include a rotational assembly configured to rotate one ormore grinding members at one or more speeds. The grinding members caninclude drill bits and/or blades. The blades can be configured toinclude a centering post and a radially displaced blade component. Thecentering post can extend through a mounting portion of the rotationalassembly and may be rotationally or slideably coupled to a supportbracket positioned on the opposite side of the rotational assembly fromthe blade component.

In some embodiments, the system can also include a grip mountingportion. The grip mounting portion can include a catch basin and amounting bracket configured to accommodate rods of different dimensionsand suspend a handle portion of the rod over the catch basin.

In some embodiments of the system, a set of one or more grinding membersis included. The set of grinding members can be organized into groupsthat are configured to work with one or more models of fishing poles.

In some embodiments of the system, a guide for coordinating particulargrinding members with particular fishing poles is provided.

In some other embodiments, a system is provided which includes one ormore grinding members, a rotational assembly, a drive assembly, and acentering post. The rotation assembly may be configured to couple to theone or more grinding members. The drive assembly may be configured todrive the rotational assembly to rotate the one or more grindingmembers. The centering post may extend through the rotational assemblyand be mounted to a mounting bracket.

In some embodiments, the system can include two or more mounting pointsthat can be adjusted to secure a rod on either side of the handleportion of the rod. The two or more mounting points can be fixedrelative to each other and can subsequently be moved through thegrinding members.

In some embodiments of the system, the grinding blades are radiallydisposed around the centering post, wherein a space between the grindingblades and the centering post can accommodate the shaft of a fishingpole.

In some embodiments the system may further comprise a mounting portionto facilitate the application of a new grip to a fishing pole rod.

In some embodiments of the system, a first of the one or more grindingmembers may comprise a drill bit for removing a rear portion of the gripfrom a fishing pole, the one or more grinding blades radially disposedaround central axis, a centering post extending along the central axis,a brush for removing a residual portion of the grip from the fishingpole remaining after a main portion of the grip has been removed, and/orone or more drill and blade pairs configured for use with fishing poleshaving rods of particular internal and external dimensions.

In some embodiments the system includes an organizational system forholding said grinding members in particular locations facilitating easyselection. The system may include a guide configured to identifyparticular grinding blades for use with fishing poles having rods ofparticular dimensions.

BRIEF DESCRIPTION OF THE DRAWINGS

Various embodiments are depicted in the accompanying drawings forillustrative purposes, and should in no way be interpreted as limitingthe scope of the embodiments. In addition, various features of differentdisclosed embodiments can be combined to form additional embodiments,which are part of this disclosure.

FIG. 1A schematically illustrates a system for modifying an assembly.

FIG. 1B schematically illustrates a system for modifying an assembly.

FIG. 2 is a perspective schematic view of an embodiment of a system formodifying an assembly.

FIG. 3 is a perspective schematic view of components in an embodiment ofa system for modifying an assembly.

FIG. 4 is a perspective schematic view of components in an embodiment ofa system for modifying an assembly.

FIG. 5A is an angled view of a portion of an embodiment of a system formodifying an assembly.

FIG. 5B is an end view of a portion of an embodiment of a system formodifying an assembly.

FIG. 6 is a perspective view of components in an embodiment of a systemfor modifying an assembly.

FIG. 7 is a perspective view of components in an embodiment of a systemfor modifying an assembly.

FIG. 8 is a flow chart illustrating an exemplary method according to anembodiment.

FIG. 9 is perspective view of components in an embodiment of a systemfor modifying an assembly.

FIG. 10A is a schematic view of components in an embodiment of a systemfor modifying an assembly.

FIG. 10B is a schematic view of a component in an embodiment of a systemfor modifying an assembly.

FIG. 11 is a perspective view of components in an embodiment of a systemfor modifying an assembly and a step in a method for modifying anassembly.

FIG. 12A is a perspective view of components in an embodiment of asystem for modifying an assembly including a centering post and agrinding blade.

FIG. 12B is a perspective view of components in an embodiment of asystem for modifying an assembly and a step in a method for modifying anassembly.

FIG. 13 is a perspective view of components in an embodiment of a systemfor modifying an assembly and a step in a method for modifying anassembly.

FIG. 14 is a perspective view of components in an embodiment of a systemfor modifying an assembly and a step in a method for modifying anassembly.

FIG. 15 is a perspective view of components in an embodiment of a systemfor modifying an assembly and a step in a method for modifying anassembly.

FIG. 16 is a perspective view of components in a system for modifying anassembly and a step in a method for modifying an assembly.

FIG. 17 is a perspective view of components in a system for modifying anassembly and a step in a method for modifying an assembly.

FIG. 18 is a perspective view a new grip applied to the handle portionof a rod according to certain embodiments.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

There are many fishing poles used in the sport of fishing. The mostcommon grips have utilized ethylene vinyl acetate or cork to provide agripping surface. They are typically applied to the handle portion ofthe rod in a method that is intended to permanently bond the grip to therod (e.g. require the grip to be destroyed to be removed).

However, new improvements to grips have introduced previouslyunavailable opportunities to enhance various visual and performanceaspects of fishing pole grips. To take advantage of these new grips, asystem and method is needed to remove the old permanently bonded gripsfrom the rods in an effective and efficient manner and to introduce newgrips to the rods.

In one embodiment disclosed herein, a system is provided which isconfigured to remove an old grip from a fishing rod, for example onemade out of cork or ethylene vinyl acetate. The system may include oneor more grinding members configured to grind the old grip from the shaftof the handle of a fishing rod. The grinding members may include bladeswhich are rotated against or near the shaft of the rod to scrape awaythe old unwanted grip and other components in the gripping section. Thegrinding members may be adjustable to allow for use with a number ofbrands and models of fishing poles. In some embodiments, instead ofadjustable grinding members, a plurality of grinding members may beprovided which can be replaceably attached to a rotating drive dependingon the diameter of the shaft of a fishing rod.

In some embodiments, in the first step of removing a grip from a fishingrod a user may reveal the inner and outer diameters of the butt of thehandle of the rod. The user may expose the inner and outer diameters ofthe butt of the handle by drilling a hole through the grip into thehollow portion of the shaft of the fishing rod. The user may also grindthe rear portion of the grip to reveal the entire butt of the shaft. Theuser may choose to use another tool to completely remove and expose theend portion of the shaft.

The user may then configure the grip removal system to grind theremaining portion of the old grip from the handle of the fishing rod. Insome embodiments this is done by selecting a grinding member with adiameter corresponding to the outer diameter of the fishing rod. In someembodiments, an adjustable grinding member is configured such thatgrinding blades or other grinding elements are adjusted to correspond tothe outer dimension of the shaft of the fishing rod such that amajority, generally, of the old grip is removed. For example, the bladesof a grinding member may be tightened to contact the outer surface ofthe fishing rod and then secured in place. In some embodiments, acentering post is also selected for guiding the fishing rod through thegrinding process. In some embodiments, the centering post may beselected to be slightly smaller than the inner diameter of the fishingrod. This allows the rod to be guided while accounting for possibletapering of the fishing rod which would prevent a larger centering rodfrom passing into the rod while grinding the old grip.

In some embodiments, the fishing rod may be secured in alignment withthe grinding member and mechanically advanced into engagement with thegrinding member such that the grip is removed as the rear of the fishingrod is advanced into the grinding member. The fishing rod may bemechanically advanced into the grinding member based on user interactionsuch as feeding the rod in or turning a crank or other mechanism whichadvances the handle into the grinding member. In some embodiments, theprocess of advancing the rod into the grinding member is automated. Forexample, one or more motors may advance the handle of the fishing rodinto the grinding member to remove the old grip.

Some fishing grips have several portions. For example, a grip for afishing pole may have a combination of one or more of a fore grip, arear grip, and a butt grip. The handle portion of a fishing rod may alsoinclude a reel seat configured to secure a fishing reel to the shaft ofthe fishing rod. Some fishing rods have a simple plastic reel seat. Insome embodiments of the grip removal systems and methods disclosedherein are configured to remove the reel seat from the shaft of thefishing rod with the old fishing grip or grips. This enables the user toremove the fore grip along with a rear grip and/or butt grip. In somesituations, the reel seat may be a metal clamp, which a user may removebefore grinding away the old grip.

After removing the old grip, a user may apply a new grip to the fishingrod. The new grip may be applied through a grip mounting portion of thesystems disclosed herein. Such grip mounting portion can be part of asingle system or may be a separate system. Some fishing rods have aslight taper. In such situations, the grip may be almost completelyremoved from the rearmost portion of the shaft of the fishing rod, whilesome residual portion of the grip will remain further up the shaft. Auser may choose to remove this portion with additional grinding orscraping, or may leave the residual portion of the grip on the shaft ofthe pole. For example, some new grips have a parallel internalconfiguration with no taper. In such situations, leaving the residualgrip on the tapered portion of the shaft may act as a base to provide abetter surface to bind the new grip to with no gaps due to the taper. Insome embodiments, the grip portion may be applied with the use of doublesided tape and lubricant to allow the grip to slide onto the tape. Whenthe lubricant dries, the grip is then secured to the shaft of thefishing pole and ready to use. Other ways of binding the new grip to therod may also be used.

Although certain embodiments and examples are disclosed herein,inventive subject matter extends beyond the examples in the specificallydisclosed embodiments to other alternative embodiments and/or uses, andto modifications and equivalents thereof. Thus, the scope of the claimsappended hereto is not limited by any of the particular embodimentsdescribed herein. For example, in any method or process disclosedherein, the acts or operations of the method or process may be performedin any suitable sequence and are not necessarily limited to anyparticular disclosed sequence. Various operations may be described asmultiple discrete operations in turn, in a manner that may be helpful inunderstanding certain embodiments; however, the order of descriptionshould not be construed to imply that these operations are orderdependent. Additionally, the structures, systems, and/or devicesdescribed herein may be embodied as integrated components or as separatecomponents. For purposes of comparing various embodiments, certainaspects and advantages of these embodiments are described. Notnecessarily all such aspects or advantages are achieved by anyparticular embodiment. Thus, for example, various embodiments may becarried out in a manner that achieves or optimizes one advantage orgroup of advantages as taught herein without necessarily achieving otheraspects or advantages as may also be taught or suggested herein.

The drawings showing certain embodiments can be semi-diagrammatic andnot to scale and, particularly, some of the dimensions are for theclarity of presentation and are shown greatly exaggerated in thedrawings.

For expository purposes, the term “horizontal” as used herein is definedas a plane parallel to the plane or surface of the floor of the area inwhich the device being described is used or the method being describedis performed, regardless of its orientation. The term “floor” floor canbe interchanged with the term “ground.” The term “vertical” refers to adirection perpendicular to the horizontal as just defined. Terms such as“above,” “below,” “bottom,” “top,” “side,” “higher,” “lower,” “upper,”“over,” and “under,” are defined with respect to the horizontal plane.

As shown schematically in FIG. 1A, in some embodiments a system can beprovided for the removal of an old grip from the rod of a fishing pole.

As shown schematically in FIG. 1B, in some embodiments a system can beprovided for both the removal of an old grip from the rod of a fishingpole as well as the mounting of a new grip onto the rod of a fishingpole. The system can be separated into multiple portions. For example,there can be a removal portion set up to facilitate the removal of theold grip and there can be a mounting portion set up to facilitate theapplication of a new grip to the rod.

In some embodiments, the removal and mounting portions are configured tobe part of a singular unit to facilitate the organization of theportions. In some embodiments, they are separate portions andindependently movable.

FIG. 2 illustrates one embodiment of a grip removal system 100, whichmay be used to remove a grip from a fishing pole. The grip removalsystem 100 illustrated in FIG. 2 is shown with a removal portion but nomounting portion, however, in some embodiments, the grip removal system100 may include a mounting portion. The removal portion includes a driveassembly 20 attached to a first grinding assembly 30. In someembodiments, the drive assembly 20 may be an AC or DC electric motor, ormay be powered by gas or another fuel. The drive assembly 20 may beoperable connected to a second grinding assembly 40. For example, asshown in FIG. 2 the drive assembly 20 is connected to the secondgrinding assembly 40 by a drive belt 35. In some embodiments, the gripremoval system may include separate drive assemblies for driving each ofthe first grinding assembly 30 and second grinding assembly 40. In someembodiments, the drive assembly may be connected to the first grindingassembly 30 and the second grinding assembly 40 such that only onegrinding assembly may be engaged at a time. The grip removal system 100further includes a front guidance portion 50 and a rear guidance portion60 as components of a guidance assembly. In some embodiments, the frontguidance portion 50 may include a rod fastening mechanism 70.

In some embodiments, the first grinding assembly 30 includes an innergrinding member 32 and an outer grinding member 34. The inner grindingmember 32 may be a drill bit, or other similar member configured todrill out the center of the rear portion of a grip and expose the innerdiameter of the shaft. The outer grinding member 34 may be configured toremove the outer grip portion from the outer surface of a fishing rod.Removing the outer grip portion of the fishing pole exposes the outerdiameter of the shaft. In some embodiments, it is sufficient to removethe majority of the old grip while leaving a small layer of old grip onthe shaft. In some embodiments, the grinding assembly 30 may havereplaceable bits which may be used for different size fishing poles. Theappropriate bit may be selected from a chart based on the brand andmodel of the pole, or may be estimated by the user based on the outerdimensions visible on the fishing rod.

The front guidance portion 50 may have a drive mechanism 52. As shown inFIG. 2, the drive mechanism 52 may be a hand crank connected to anadvancement screw 56. The advancement screw may be connected to the rodfastening mechanism 70 such that as the hand crank is turned, the rodfastening mechanism 70 advances toward the second grinding assembly 40such that the grip of a fishing rod held in the fastening mechanism 70may be engaged with the second grinding assembly 40 to remove the grip.In some embodiments, instead of using a hand crank and screw, the gripremoval system 100 may have a drive mechanism configured toautomatically advance the shaft of the fishing rod into the secondgrinding member 40. The drive mechanism may be automatically controlledby one or more controllers. For example, the drive mechanism may advancethe handle portion of the fishing rod into the second grinding mechanismat an appropriate pace to safely and efficiently remove the grip fromthe fishing rod. The appropriate pace may be selected based on the typeof grip being removed, the size of the grip being removed, or otherfactors. In some embodiments, one or more sensors may be used todetermine how quickly the grip is being removed and adjust the pace ofthe drive mechanism.

As shown in FIG. 2, some embodiments of the grip removal system 100include a set of parallel rails 54 which align various portions of thesystem. For example, the fastening mechanism 70, the second grindingassembly 40, and the rear guidance portion 60 may each be attached tothe rails 56 to maintain proper alignment. The fastening mechanism 70and the rear guidance portion 60 may be configured to slide along therails as the handle of a fishing rod is passed through the secondgrinding assembly 40. This ensures that the fishing rod is aligned withthe center of the second grinding assembly as the grip is removedpreventing potential damage to the fishing rod.

Also as shown in FIG. 2, some embodiments of the grip removal system 100include a set of parallel spacing bars 58 configured to maintain theseparation between the fastening portion 70 and the rear guidanceportion 60. The parallel spacing bars 58 also allow the force of thedrive mechanism 52 to move the rear guidance portion 60 with thefastening portion 70. In some embodiments, the distance between the rearguidance portion 60 and the fastening mechanism 70 may be changed byadjusting where the parallel spacing bars 58 are attached to eachportion. Maintaining the separation between the fastening portion 70 andthe rear guidance portion 60 enables the shaft of the fishing rod tostay centered as it is held by both portions and the handle is advancedinto the second grinding assembly 40.

FIG. 3 illustrates various components of one embodiment of the gripremoval system 100 discussed with reference to FIG. 2 above. Somecomponents of the system have been removed from the illustration toexpose various elements of the system. As shown in FIG. 3, the fasteningmechanism 70 includes a screw hole 72 which couples to the advancementscrew 56. As the advancement screw 56 turns, the force against screwhole 72 moves the fastening mechanism along the parallel rails 54. Thefastening mechanism 70 also includes a pole clasp 76 which is configuredto grip a fishing rod at a position spaced from the butt end of the rodand preferably past the tip end of the old grip or grips. The pole clasp76 is secured around a pole using tightening screws 74. As shown in FIG.3, the fastening mechanism 70 may include two tightening screws 74 tofasten a fishing rod in place. In some embodiments, the fasteningmechanism 70 includes a single tightening screw 74 to secure pole clasp76 around a fishing pole. For example, the embodiment as shown in FIGS.5A and 5B includes a single tightening screw 74. The use of a singletightening screw 74 may ensure that the pole remains centered with thegrinding member without having to move both sides of the pole clasp 76.For example, a single tightening screw may move both sides of pole clasp76 such that at any separation, the center between the sides is alignedwith the second grinding assembly 40.

Also as shown in FIG. 3, the rear guidance portion includes a centeringrod or post 62. A portion of the centering post may be placed inside theexposed handle of a fishing rod to guide the rear end of the rod throughthe grinding member. The centering post 62 may have a conical end 64such that a pole placed on the centering rod automatically sits securelyon the centering rod 62, in a centered position along the taperedsurface of the conical end 64. In some embodiments the rear portion ofthe fishing rod may be held in alignment with the second grindingassembly 40 with a vice, grip, clamp, fastener, tightening screws,clasp, snap, or other devices capable of securing the rear portion ofthe fishing rod in alignment with the grinding assembly. When fixedbetween centering rod 62 and clasp 76, the central axis of the handleportion of the rod is preferably aligned with the central axis of thegrinding assembly.

As shown in FIG. 3, in some embodiments, the rear guidance portion 60may include a spacing assembly 63 having a spacing screw 65, and acentering assembly 67 having the centering rod 62. The spacing assembly63 may be adjusted to vary the distances D1 and D2 to accommodatefishing rods having handle portions of various sizes. For example, thedistance D1 may be changed by adjusting the connection of parallelspacing bars 58 to the fastening mechanism 70 and the spacing assembly63. The adjustment made to the distance D1 changes the length of thehandle portion of a rod that may be modified by the system. However, forthe system to operate properly, the centering post 62 should be securelyengaged with a fishing rod. Thus, in some embodiments, the system alsoprovides the ability to make fine adjustments to distance D2. Forexample, the distance D2 may be adjusted using spacing screw 65. Whenspacing screw 65 is screwed one direction, the distance D2 is increased,and when it is screwed the other direction, the distance D2 isdecreased. Using the fine adjustments provided by varying the distanceD2, the centering rod 62 can be securely inserted in to the shaft of afishing pole to align it for grip removal. In some embodiments, the gripremoval system only allows adjustment of one of the distances D1 and D2.For example, the centering post 62 may be secured directly to spacingassembly 63 such that the only adjustment may be to distance D2. In someembodiments, the parallel rails 54 may include marks indicating thedistances D1 and D2. This may enable a user to remember which distanceswork best for different fishing rods. In addition, the system mayinclude a table indicating preferred distances for a variety of fishingrods.

In some embodiments, the spacing between the centering rod 62 and thefastening mechanism 70 may preferably be set such that the centering rodholds the end portion of the shaft of a fishing pole, and the fasteningmechanism holds the shaft of the fishing rod between the distal or tipend of the grip portion of the rod and the first eyelet of the fishingrod. In some embodiments, or based on user preference, the fasteningmechanism may hold the fishing rod further down the rod, for example,further than the first eyelet of the fishing rod. Depending on theamount of grip to be removed from the fishing rod, the fasteningmechanism may also hold the fishing rod on the grip portion of theshaft. For example, if only a butt or rear grip is to be removed fromthe fishing rod, the fastening mechanism may grip a fore grip or realseat of the fishing rod. In each of these situations, the distances D1and D2 can be adjusted as discussed above. Once fixed, the systempermits longitudinal movement of the rod, the tightening mechanism 70,and the rear guidance portion 60 along the central axis of the grindingassembly 40

FIG. 4 illustrates additional details of an embodiment the secondgrinding assembly 40 as used in one embodiment of the grip removalsystem 100. As shown in FIG. 4, the second grinding assembly includes ashield 42 and a grinding member 44. The grinding member 44 is driven bythe drive assembly 20 through drive belt 35. The shield protects a userfrom particles of a grip removed by the grinding member 44. The shieldmay preferable extend past the grinding member 44 such that particles ofgrip removed from the shaft of the fishing rod are not thrown at a user.The shield may also protect a user from accidentally coming into contactwith the grinding member 44.

FIGS. 5A and 5B illustrate components of one embodiment of the gripremoval system 100. As shown in FIG. 5A, in some embodiments, the shield42 may be removable. This enables an operator quick access to grindingmember 44 so that the dimensions of the grinding member may be adjusted,or a different grinding member may be attached. The shield maypreferably extend past the grinding member 44 to prevent debris removedfrom a fishing rod from flying away from the grip removal system 100.The shield may include a locking notch 41 configured to secure theshield to the grinding member 44. The locking notch 41 can beconstructed to fit securely over or into a portion of the grip removalsystem 100 to hold the shield in place over the grinding member to catchdebris. In some embodiments, the shield may include a clamp, fastener,tightening screw, or other mechanism to further secure the shield to thegrinding member 44. The shield 42 may also be attached to the gripremoval system 100 by a hinge, which enables the shield to be pulledback to expose the grinding member 44 for adjustment. As shown in FIG.5A, the shield may be made from a transparent material such that anoperator may be protected from debris while still viewing the operationof the grinding mechanism. In some embodiments, the shield maypreferably be constructed from a plastic polymer such as Poly(methylmethacrylate) or a polycarbonate.

In some embodiments, as shown in FIG. 5B, the shield 42 may include oneor more channels 43 to allow components of the grip removal system 100to pass under the shield toward the grinding member 44. FIG. 5B showsthe fastening mechanism 70 advanced under the shield 42. The channels 43allow the platform 71 and tightening screw 74 of the fastening mechanism70 to travel past the extended portion of the shield. This enables thegrip removal system 100 to advance a fishing rod further toward thegrinding member 44 and therefore remove grip further up the shaft of thefishing rod. In some other embodiments, the shield 42 may not havechannels 43, and the rod would only be advanced until components of thesystem reached the outer extended edge of the shield 42. As shown inFIG. 5B, the shield 42 may be designed to fully surround the grindingmember 44, while protecting both the operator, and other variouscomponents of the system. For example, the shield 42 may be configuredto prevent debris from landing on moving components of the system, suchas parallel rails 54, drive assembly 20, belt 35, or other componentsthat may be affected by the presence of debris from grinding. Someembodiments of the grip removal system 100 may include a larger orsmaller shield. For example, a smaller shield may be configured toencompass only an area immediately surrounding the grinding mechanism,while a larger shield may surround more components of the system. Forexample, the entire advancement portion of the system may be surroundedby a shield.

As discussed with reference to FIG. 3 above, the embodiment in FIG. 5Bincludes a single tightening screw 74 to fasten the vice around afishing rod. As shown in FIG. 5B, the tightening screw includes twocounter rotating screw portions, 74A and 74B. The screw portion areconstructed such that turning the tightening screw 74 one directionmoves clamp portions 77A and 77B outward from center alignment of thegrinding member, and turning the tightening screw 74 in the otherdirection moves claim portions 77A and 77B toward center alignment withthe grinding member. The threading on the screws are constructed to movethe clamp portions the same amount per turn of the tightening screw 74such that a fastened fishing pole will be in alignment with the grindingmember.

As shown in FIG. 5B, in some embodiments the system includes astabilizer 78. The stabilizer 78 acts as an additional guide forsecuring the fishing pole as it is advanced through the grindingassembly 44. For example, the stabilizer may be an arm which rotates ona hinge to hold a portion of the fishing pole steady. In someembodiments, other types of stabilizers may be used.

FIG. 6 illustrates the grinding member 44 as used in one embodiment ofthe grip removal system 100. The grinding member 44 includes a driveportion 46 and a grinding portion 48. The grinding member 44 may bepositioned inside of a grinding member receiver 47. The grinding memberreceiver is configured to hold the grinding member 44 in alignment withthe other portions of the grip removal system 100 while allowing thegrinding member to rotate freely when driven by the drive assembly 20through drive belt 35. Drive belt 35 passes through a notch 45 in thedrive portion 46 and turns the grinding member 44. In some embodimentsthe grinding portion 48 includes several blades configured to grind orscrape some or all of the grip off of a handle. The blades may beadjustable such that grips may be removed from fishing rods with shaftshaving various circumferences. In some embodiments the grinding portion48 may include various attachments with different dimensions toaccommodate fishing rods of different sizes. An embodiment of a grindingportion 48 is described further below with reference to FIG. 7.

FIG. 7 illustrates an embodiment of a grinding portion 48 as used in oneembodiment of the grip removal system 100. The grinding portion 48includes one or more grinding blades 82 each held in place by a bladepositioner 84. The blade positioners 84 may be secured with securingdevices 86. When a handle is placed in line with the grinding portion48, the blade positioners 84 may be adjusted such that the grindingblades 82 are in contact with the shaft of the fishing pole. When thegrinding member 44 is rotated, the grinding blade will scrape againstthe outside of the shaft removing the grip from the fishing rod. In someembodiments the securing devices 86 include one or more setting screws87 which are tightened through the securing devices 86 against the bladepositioners 84 when the grinding blades 82 are in a desirable positionagainst or near the outer dimensions of the fishing rod. In someembodiments, the grinding blades may be automatically positioned againstthe outer dimension of the fishing rod. For example, the blades may beautomatically tightened against a fishing rod with a set amount offorce, wherein the force is selected such that it will not damage thefishing rod, but will bring the blades sufficiently close to the outersurface of the fishing rod to remove the desired amount of grip duringthe grinding process. In some embodiments fewer or additional grindingblades may be used as part of a grinding portion 48. For example, 2blades, 4 blades, 5 blades, or other numbers of blades may be used forgrinding.

As shown, an embodiment of a system for removing the grip from a fishingpole may include a first grinding member, a second grinding member, aguidance assembly, and an advancement mechanism. The first grindingmember may include an inner grinding portion having an outer diametersmaller than the inner diameter of a shaft of a fishing pole. The firstgrinding member may also include an outer grinding portion having aninner diameter larger than an outer diameter of the shaft of the fishingpole. The inner grinding portion and the outer grinding portion may becoupled together to rotate about a common axis. The second grindingmember may have an inner diameter larger than the outer diameter of theshaft of the fishing pole. The guidance assembly may include a firstmounting portion aligned with a rear facing portion of the secondgrinding member and a second mounting portion aligned with a forwardfacing portion of the second grinding member. For example, the firstmounting portion and second mounting portion may be aligned with arotational axis of the second grinding member. In some embodiments, thesecond mounting portion is spaced apart from the first mounting portionat least a distance from an end portion of the fishing pole past a gripportion of the fishing pole. In some embodiments, the distance thesecond mounting portion is spaced from the first mounting portion isadjustable. The advancement mechanism may be coupled to the guidanceassembly to enable longitudinal movement of the first mounting portionand the second mounting portion in alignment with the second grindingassembly.

As shown, some embodiments may also include a drive assembly operablycoupled to the first grinding member and the second grinding member,wherein engaging the drive assembly enables rotation of the firstgrinding member and the second grinding member. In some embodiments, thedrive assembly may be independently engaged to rotate only one of thefirst grinding member or the second grinding member at a time, or toidle without rotating either grinding member.

In some embodiments, as shown, the first mounting portion comprises acentering rod having at least a portion with an outer diameter smallerthan the inner diameter of the shaft of the fishing pole.

In some embodiments, the outer diameter of the inner grinding portion ofthe first grinding member is adjustable to accommodate fishing poles ofvarious dimensions. The inner diameter of the outer grinding portion ofthe first grinding member may also be adjustable to accommodate fishingpoles of various dimensions. In some embodiments, the second grindingmember comprises one or more cutting blades disposed radially about anaxis of rotation. In some embodiments, the displacement of the one ormore cutting blades from the axis of rotation is adjustable toaccommodate fishing poles of various dimensions.

As another example, a system for removing the grip from a fishing polemay include a grinding assembly, a guidance assembly, and an advancementmechanism. The grinding assembly may have a grinding member having aninner diameter larger than the outer diameter of the shaft of a fishingpole. The guidance assembly may include a first mounting portion alignedwith a rear facing portion of the grinding member and a second mountingportion aligned with a forward facing portion of the grinding member. Insome embodiments the space between the first mounting portion and thesecond mounting portion is adjustably fixed to accommodate fishing poleshaving grip portions of various lengths. The advancement mechanism maybe coupled to the guidance assembly enabling longitudinal movement ofthe guidance assembly in alignment with the second grinding assembly.

In some embodiments, the first mounting portion and the second mountingportion are positioned on one or more rails enabling the first andsecond mounting portions to slide in longitudinal alignment with thegrinding member. One or both of the first mounting portion and thesecond mounting portion may also be adjustably fixed to a spacing bar toenable adjustment of the space between the first mounting portion andthe second mounting portion. For example, the connection point betweenof one or both of the mounting portions to the spacing bar may beadjusted to change the distance between the first and second mountingportions. Thus, in some embodiments, the second mounting portion isspaced apart from the first mounting portion a distance greater than thedistance from the end portion of the fishing pole to the distal end of agrip portion of the fishing pole. The second mounting portion may alsobe spaced apart from the first mounting portion a distance less than thedistance from the end portion of the fishing pole to the first eyelet ofthe fishing pole.

The grip removal system 100 as described with reference to FIGS. 2-7 maybe used to remove a grip from a fishing pole or similar object. FIG. 8is an example block diagram illustrating some processes which may beused in removal of a grip from a fishing rod. Beginning in block 802, inone embodiment of a method to remove a grip, the first step is exposingthe inner and outer dimensions of the handle end of the shaft of afishing rod. For example, end of the shaft of the fishing rod may beexposed using the first grinding assembly 30. The handle end of afishing pole may be guided onto the inner grinding member 32 whichdrills out and removes at least a portion of the grip from the center ofthe shaft of the fishing rod. As the grip is removed from the center ofthe fishing pole, the outer grinding member 34 may remove a portion ofthe grip from the exterior of the fishing pole. The first grindingassembly 30 may only grind away a small first portion from the handleend of the fishing rod.

Moving on to block 804, a user may adjust a grinding member to match theouter dimensions of the shaft. For example, as shown in FIG. 7, thegrinding blades 82 may be adjusted to accommodate the shaft of thefishing rods. In some embodiments the adjustment is manually performed,but the process may also be automated. Instead of adjusting the grindingmember, in some embodiments, a grinding member is selected withdimensions appropriate for a particular fishing rod.

In block 806, the exposed handle end of the fishing pole is aligned andplaced within a grinding member. For example, the handle end of thefishing pole may be placed inside second grinding assembly 40 as shownin reference to FIGS. 2-7. In block 808, the open end of the shaft canbe slid onto a portion of a centering post to align the fishing rod withthe grinding member. For example the fishing rod may be placed onto thecentering post 62. In block 810, the distance between the centering postand a fastening mechanism is adjusted to accommodate the fishing pole.For example, the distance between the two points must be long enoughsuch that the entire grip portion of the pole fits. On the other hand,the distance must be small enough such that the fishing pole is securedat two points in a sturdy section of the fishing pole. If the forwardportion of the pole is fastened at a point that is too flexible, thepole may not be accurately guided through the grinding member inalignment. The distance may be adjusted as discussed above withreference to FIG. 3, or according to another process.

In block 812, the forward portion of a fishing rod is fastened inalignment with the guiding member. Thus, the fishing pole is secured atboth ends such that it will remain in alignment with the grindingmember. In some embodiments, the fishing pole may be secured in afastening mechanism before being placed over a centering post. Inaddition, the distance between the fastening mechanism and the centeringpost may be adjusted before or after securing the fishing pole in blocks808 and 812.

In block 814, a drive assembly is engaged to activate the grindingmember. For example, an electric motor may be engaged to rotate thegrinding member about a center axis, wherein the fishing pole is alignedwith the center axis by the fastening mechanism and the centering post.In block 816, the fishing pole is advanced through the grinding membersuch that the grinding member removes the grip from the fishing pole.For example the fishing pole may be advanced through the drive mechanismusing a drive mechanism 52 as discussed with reference to FIG. 2 above.In block 816 a new grip may be applied to the handle portion of thefishing pole.

Other methods of modifying fishing pole grips may include fewer,additional, or modified processes than those described in reference toFIG. 8. For example, in some other embodiments, the process may beginwith removing an end portion of a mounted fishing pole grip from afishing pole to expose an end portion of the shaft of the fishing pole.The inner diameter of a grinding member may then be adjusted tocorrespond to an outer diameter of the end portion of the shaft of thefishing pole. For example, the inner diameter of the grinding member,such as the position of grinding blades, may be set such that thegrinding member is adjacent to or almost adjacent to the outer edge ofthe shaft of the fishing pole.

In some methods, the fishing pole may then be aligned with the grindingmember. For example the central axis of the fishing pole may be alignedwith the central axis about which the grinding member rotates. Arotational assembly may then be powered to rotate the grinding memberabout its axis. The mounted fishing pole grip may then be engaged withthe grinding member. For example, such that grinding blades rotate aboutthe outer dimension of the shaft of the fishing pole to scrape or grindaway the mounted fishing pole grip. The shaft of the fishing pole maythen be advanced through the grinding member such that the grindingmember substantially removes the mounted fishing pole grip as the shaftpasses through the grinding member.

In some embodiments of methods for modifying a fishing pole grip from afishing pole, a replacement grip is installed on the handle portion ofthe shaft of the fishing pole. For example, in some embodiments, doublesided tape is wrapped around the handle portion of the fishing poleafter the mounted fishing pole grip has been substantially removed. Thenlubricant may be applied to the double sided tape that has been wrappedaround the handle portion of the fishing pole. The replacement fishingpole grip can then be slid onto the handle portion of the shaft of thefishing pole, on top of the double sided tape. When the lubricant driesor evaporates, the double sided tape will bind the replacement grip tothe handle portion of the fishing pole.

In some methods of modifying or changing a fishing pole grip, the doublesided tape may be wrapped around a residual portion of a mounted fishingpole grip that has been substantially removed. For example, in somemethods, the shaft of a fishing pole grip may have a tapered portionsuch that the butt end of the shaft of the fishing pole is wider than atleast some portions of the handle portion of this shaft of the fishingpole. In some methods of removing the fishing pole grip, a residualportion of the mounted fishing pole grip is left on such a taperedportion of the shaft of the fishing pole. In such methods, the residualportion of the mounted fishing pole grip may form a substantiallycylindrical surface, which may be used as the mounting surface for areplacement grip. In some other embodiments a residual portion of themounted fishing pole grip may be removed from the shaft of the fishingpole after the main portion of the fishing pole grip has beensubstantially removed.

In some embodiments of methods for changing or modifying a fishing polegrip, aligning the shaft of the fishing pole with a grinding memberincludes mounting an exposed end portion of the shaft of the fishingpole on a centering post which is in alignment with the grinding member.A front portion of the shaft of the fishing pole may be fastened into afastening mechanism aligned with the grinding member. The front portionof the shaft may be further from the end portion of the shaft than themounted fishing pole grip. In some methods, the distance between acentering post and a fastening mechanism may be adjusted to accommodatefishing poles with grip portions of various lengths or dimensions.

In some methods, the inner diameter of a grinding member may be adjustedby tightening one or more grinding blades to be substantially adjacentto the outer diameter of the end portion of the shaft of the fishingpole.

FIG. 9 illustrates a second embodiment of a grip removal system 200. Asshown in FIG. 9, some embodiments provide a grip removal system having aremoval portion 210 and a mounting portion 260. The removal portionincludes a rotational assembly including a grinding assembly 220 coupledto a drive assembly 230. The grinding assembly 220 includes a grindingmember 222, as shown a drill bit 224, mounted thereto and configured torotate. The grinding assembly is preferably disposed under a shield 280that can catch debris while permitting the user to view the grindingmember as it engages a fishing pole grip. The drive assembly 230 may beturned on or off with a switch 232. As shown in FIG. 9, some embodimentsof the grip removal system 200 may be portable. For portable models,non-slip feet 270 may be provided to prevent the grip removal system 200from sliding of moving while in operation. In some other embodiments thegrip removal system 200 may be mounted permanently to a structure, ormay clamp onto a structure for secure operation.

In some embodiments, the mounting portion includes a rod mount assembly262 and a catch basin 264. The rod mount assembly 262 is configured toengage rods of various outer dimensions to securely hold the handleportion of the rod over the catch basin. The catch basin is configuredto catch adhesive, lubricant, or other materials dripping from thehandle of a fishing rod.

In some embodiments, the system is configured to remove an old grip fromthe rod of a fishing pole to allow a new grip to be applied to the rodin its place. The handle portion of the rod typically defines an outerdiameter and a hole at its butt end that defines an internal diameter.There are many brands and many models of fishing poles. The rods of thevarious poles can vary from brand to brand and from model to model. FIG.10A schematically shows a multitude of grinding members 222. In someembodiments, grinding members are provided in groups. A particular drillbit is provided that is dimensioned to correspond to a particularinternal diameter for a rod. Blades are provided that are similarlydimensioned to correspond to the outer dimensions of a rod. Centeringposts 228 are provided that correspond to the inner dimensions of a rod.As shown in FIG. 10A, the grinding members 222 can be provided in anorganizational assembly that facilitates locating the correspondinggrinding members 222 that are necessary to remove a grip from aparticular rod.

FIG. 10B schematically shows an exemplary guide that is configured tohelp a user identify which grinding members are suitable for use withwhich fishing poles. The guide can be set up to identify particularbrands and models and link them to particular groupings of grindingmembers 222 as shown. In some cases, a blade or post or bit from onecategory may be used with the blade, post, or bit from one or more othercategories to appropriately match a particular rod. For example, theblade 226A from grinding member A as shown in FIG. 10A may be pairedwith the drill bit 224B from grinding member B. In some embodiments theappropriate grinding member 222 may be selected by comparing the bladesand drill bits to the inner and outer dimensions of the shaft of thefishing rod.

FIG. 11 shows a grinding member, in this case a drill bit 224, beingused to grind a hole into the butt end of a cork grip 310 on a fishingpole 300. The drill bit has been selected so as to remove the cork andenter the hollow butt end of the rod, but avoid removing a significantportion of the rod when it enters the hole at the butt end. The drillbit 224 can be attached to the grinding assembly 220 with a standarddrill bit attachment mechanism. Though shown being manually fed onto thegrinding member 222, in some embodiments, a mechanical hold may be usedto hold and feed the grip onto the grinding member to ensure the drillbit only removes old grip. In some embodiments, a drill bit is selectedthat has a significantly smaller outer diameter than the inner diameterof the particular rod. As such, the risk of damaging the rod isminimized. Once an initial hole is drilled, a user can manually removethe remaining cork with an awl, blade, or other tool so that the roddefines the smallest internal diameter at the butt end of the old grip.

FIG. 12A shows a different grinding member attached to the grindingassembly 220. This grinding member includes a centering post 228 and oneor more blades 226 positioned radially outward from the centering post.The centering post 228 is dimensioned to fit within the rod of thefishing pole. In some embodiments, the fit is close without being snugto ensure proper alignment of the one or more blades along the outersurface of the rod. In some embodiments, a portion of a tapered end ofthe centering post 228 fits into the open end of the rod shaft. Theblades 226 are spaced from the centering post such that as the rod isfed along the post, the blades remove the grip, for example cork, fromthe rod while maintaining the integrity of the rod. The centering post228 extends through the grinding assembly 220 and is held by themounting bracket on the opposing side of the grinding assembly. In someembodiments, the centering post is removably attached to the mountingbracket. For example, the centering post 228 may be removably attachedto allow for exchanging the centering post for a second post ofdifferent size to allow the system to accommodate a variety of sizes offishing poles.

According to some embodiments, the centering post 228 and blade 226 areseparate components that are selected for a particular rod application.Accordingly, a particular centering post may be used with differentblades depending on the thickness of the rod wall. Once a rod isidentified, an appropriate centering post and blade combination isselected. The centering post can be secured to the mounting bracket 225such that it extends through the grinding assembly 220. The blade 226can be attached to grinding assembly such that it will rotate about agenerally stationary horizontal axis when driven by the drive assembly.The centering post 228 may translate back through the blades 226 as therod is fed through the grinding assembly 220. Alternatively, the rod mayslide over an appropriately sized post.

FIG. 12B shows a rod 300 with grip 310 being fed along the centeringpost 228 (not shown) and into engagement with a blade 226. The on/offswitch (shown in FIG. 8) can be started to initiate rotation of theblade about the centering post 228. There may be a fixed speed or thespeed of the blade can be varied as needed. For example, depending onthe type of grip being removed various speeds may be better suited forgrinding off the grip. In addition, a plastic reel seat may be removedbetter at a different speed than the removal of a cork or ethylene vinylacetate grip. Thus, a user may wish to vary the speed during operation.In some embodiments the speed may be incrementally adjusted by userpreference. The grip removal system may also include preset speeds whichallow a user to select a speed based on the grip being removed. Forexample, there may be one preset speed for cork grips and a secondpreset speed for ethylene vinyl acetate grips. The speed may also havesetting based on the grinding member selected for a particular rod. Forexample, a grinding member with blades 226 of a larger diameter maypreferably be operated at a lower rotational speed than one with asmaller diameter.

Though shown being manually fed onto the rod, in some embodiments, thefishing pole may be held in a mechanical apparatus to ensure it does notmove as it is fed against the rotating blades, as shown for example, inthe embodiment of FIGS. 2-7 herein.

FIG. 12 shows a fishing pole rod 300 pulled back slightly after thegrinding assembly has removed the majority of an old grip to exposeresidual grip 315. Though the centering post and blade combination hasbeen selected to generally correspond to the particular rod beingmanipulated, there may be residual old grip 315 on the handle portion ofthe rod. This can ensure that the blade does not inadvertently remove aportion of the rod during the removal process. Undue excess old grip maybe removed in subsequent steps. As shown, the shield may extend over theblade such that the blade is covered by the shield when viewed fromabove. In some embodiments, the blade may extend out from the shield.

FIG. 14 shows another grinding member 222 attached to the grindingassembly. This grinding member 222 is a brush 227 and it is attached tothe grinding assembly 220. In some embodiments, it is preferable to havethe brush extend a distance away from the grinding assembly 220. Forexample, it may facilitate use if it extends several inches away fromthe assembly so that the shield, if rigidly attached to the system, doesnot interfere with the rod as the brush is used. The brush is configuredto remove more of the residual old grip 315 from the rod 300. In someembodiments, it is preferable to remove most of the old grip so that thehandle portion of the rod presents a generally smooth surface forapplication of the new grip. In some embodiments, the brush is notnecessary and the blade removes enough of the old grip. In others, thebrush is used to further clean the old grip from the rod. Some fishingrods will have a generally parallel shaft through the handle portion ofthe pole. Some other fishing rods may be slightly tapered such that thebutt of the shaft is has the largest diameter. In such cases, the blademay grind away most of the grip from the butt end of the shaft, but notfrom further up the handle. The user may use the brush to remove theremainder of the old grip from the thinner portions of the handle. Insome cases, where the new grip to be applied has a parallel internalconfiguration, the remaining portion of old grip may be left on thehandle of the shaft to provide a surface for attaching the new grip. Insome embodiments, the brush is steel, though other materials may be usedincluding other metals and/or plastics.

FIG. 15 shows a rod 300 attached to the mounting assembly of themounting portion of the system. An adhesive agent is applied to thehandle portion of the rod to secure a new grip thereto. In someembodiments, the adhesive agent is double sided tape 266 as shown inFIG. 15. The mounting portion shown in FIG. 14 includes a rod mountassembly 262 configured to secure a fishing rod over the catch basinwhile a new grip is applied. The rod mount assembly may include a rodclamp 263 secured on the shaft of a fishing rod by fastener 265. Thedouble sided tape may be secured around the shaft of the fishing rod toready the handle for application of a new grip.

FIG. 16 shows the application of a lubricating solution 267 to thedouble sided tape to facilitate insertion of the handle portion of therod into a new grip. In some embodiments, the lubricating solution 267allows a new grip to be placed over the adhesive agent present on thedouble sided tape to allow proper positioning of the grip. When thelubricating solution 267 is absorbed and/or evaporates, the adhesiveagent in the double sided tape secures the new grip onto the old handle.In some embodiments, instead of double sided tape, a separate adhesiveagent may be placed on the shaft of the fishing pole to secure the newgrip.

FIG. 17 shows a new grip being 280 applied to the handle portion of afishing rod 300. The grip 280 is initially angled to facilitateinsertion of the rod into the end of the grip. As shown in FIG. 17, agrip may preferable be applied at a 45 degree angle to the shaft of therod 300. In some embodiments, depending on the configuration of theshaft and the grip, other angles may be preferably chosen for applyingthe grip. For example, in some embodiments grips may be applied best at15-30 degrees, 30-45 degrees, 45-60 degrees, or other angles. FIG. 18shows a new grip 280 attached to the handle portion of a rod 300 thathas had its old grip removed according to embodiments disclosed herein.

The various features and processes described above may be usedindependently of one another, or may be combined in various ways. Allpossible combinations and sub-combinations are intended to fall withinthe scope of this disclosure. In addition, certain methods or processesmay be omitted in some implementations. The methods and processesdescribed herein are also not limited to any particular sequence. Forexample, described the methods may be performed in an order other thanthat specifically disclosed, or multiple steps may be combined in asingle step or may be performed in parallel with some other steps. Theexample systems and components described herein may be configureddifferently than described. For example, elements may be added to,removed from, or rearranged compared to the disclosed exampleembodiments.

Conditional language, such as, among others, “can,” “could,” “might,” or“may,” unless specifically stated otherwise, or otherwise understoodwithin the context as used, is generally intended to convey that certainembodiments include, while other embodiments do not include, certainfeatures, elements and/or steps. Thus, such conditional language is notgenerally intended to imply that features, elements and/or steps are inany way required for one or more embodiments or that one or moreembodiments necessarily include logic for deciding, with or without userinput or prompting, whether these features, elements and/or steps areincluded or are to be performed in any particular embodiment.

It should be emphasized that many variations and modifications may bemade to the above-described embodiments, the elements of which are to beunderstood as being among other acceptable examples. All suchmodifications and variations are intended to be included herein withinthe scope of this disclosure. The foregoing description details certainembodiments. It will be appreciated, however, that no matter howdetailed the foregoing appears in text or in the figures, the systemsand methods can be practiced in many ways. As is also stated above, itshould be noted that the use of particular terminology when describingcertain features or aspects of the invention should not be taken toimply that the terminology is being re-defined herein to be restrictedto including any specific characteristics of the features or aspects ofthe systems and methods with which that terminology is associated.

What is claimed is:
 1. A method of changing fishing pole grips: removingan end portion of a mounted fishing pole grip from a fishing pole toexpose an end portion of a shaft of the fishing pole; adjusting an innerdiameter of a grinding member to correspond to an outer diameter of theend portion of the shaft of the fishing pole; aligning the fishing polewith the grinding member; powering a rotational assembly to rotate thegrinding member about an axis; engaging the mounted fishing pole gripwith the grinding member; and advancing the shaft of the fishing polethrough the grinding member to substantially remove the mounted fishingpole grip.
 2. The method of claim 1 further comprising: wrapping doublesided tape around a handle portion of the shaft of the fishing poleafter the mounted fishing pole grip has been substantially removed;applying lubricant to the double sided tape wrapped around the handleportion of the fishing pole; and sliding a replacement fishing pole griponto the handle portion of the shaft of the fishing pole on top of thedouble sided tape.
 3. The method of claim 2, wherein the double sidedtape is wrapped around a residual portion of the mounted fishing polegrip.
 4. The method of claim 1, wherein substantially removing themounted fishing pole grip further comprises leaving a residual portionof the mounted fishing pole grip on a tapered portion of the shaft ofthe fishing pole such that an outer dimension of the residual portion ofthe mounted fishing pole grip forms a substantially cylindrical surface.5. The method of claim 1, wherein aligning the fishing pole with thegrinding member comprises: mounting the exposed end portion of the shaftof the fishing pole on a centering post aligned with the grindingmember; and fastening a front portion of the shaft of the fishing polein a fastening mechanism aligned with the grinding member, wherein thefront portion of the shaft is further from the end portion of the shaftthan the mounted fishing pole grip.
 6. The method of claim 5 furthercomprising adjusting a distance between the centering post and thefastening mechanism.
 7. The method of claim 1, wherein adjusting theinner diameter of a grinding member further comprises tightening one ormore grinding blades to be substantially adjacent to the outer diameterof the end portion of the shaft of the fishing pole.
 8. The method ofclaim 1, further comprising removing a residual portion of the mountedfishing pole grip from the shaft of the fishing pole after the mainportion of the fishing pole grip has been substantially removed.
 9. Asystem for removing the grip from a fishing pole, the system comprising:a first grinding member comprising: an inner grinding portion having anouter diameter smaller than an inner diameter of a shaft of a fishingpole; and an outer grinding portion having an inner diameter larger thanan outer diameter of the shaft of the fishing pole; wherein the innergrinding portion and the outer grinding portion are coupled together torotate about a common axis; a second grinding member having an innerdiameter larger than the outer diameter of the shaft of the fishingpole; a guidance assembly comprising: a first mounting portion alignedwith a rear facing portion of the second grinding member; and a secondmounting portion aligned with a forward facing portion of the secondgrinding member; wherein the second mounting portion is spaced apartfrom the first mounting portion at least a distance from an end portionof the fishing pole past a grip portion of the fishing pole; and anadvancement mechanism coupled to the guidance assembly enablinglongitudinal movement of the first mounting portion and the secondmounting portion in alignment with the second grinding assembly.
 10. Thesystem of claim 9, further comprising a drive assembly operably coupledto the first grinding member and the second grinding member, whereinengaging the drive assembly enables rotation of the first grindingmember and the second grinding member.
 11. The system of claim 9,wherein the distance the second mounting portion is spaced from thefirst mounting portion is adjustable.
 12. The system of claim 9, whereinthe first mounting portion comprises a centering rod having at least aportion with an outer diameter smaller than the inner diameter of theshaft of the fishing pole.
 13. The system of claim 9, wherein the outerdiameter of the inner grinding portion of the first grinding member isadjustable to accommodate fishing poles of various dimensions.
 14. Thesystem of claim 9, wherein the inner diameter of the outer grindingportion of the first grinding member is adjustable to accommodatefishing poles of various dimensions.
 15. The system of claim 9, whereinthe second grinding member comprises one or more cutting blades disposedradially about an axis of rotation.
 16. The system of claim 15, whereina displacement of the one or more cutting blades from the axis ofrotation is adjustable to accommodate fishing poles of variousdimensions.
 17. A system for removing the grip from a fishing pole, thesystem comprising: a grinding assembly with a grinding member having aninner diameter larger than the outer diameter of the shaft of a fishingpole; a guidance assembly comprising: a first mounting portion alignedwith a rear facing portion of the grinding member; and a second mountingportion aligned with a forward facing portion of the grinding member;wherein the space between the first mounting portion and the secondmounting portion is adjustably fixed to accommodate fishing poles havinggrip portions of various diameters; and an advancement mechanism coupledto the guidance assembly enabling longitudinal movement of the guidanceassembly in alignment with the second grinding assembly.
 18. The systemof claim 17, wherein the first mounting portion and the second mountingportion are positioned on one or more rails enabling the first andsecond mounting portions to slide in longitudinal alignment with thegrinding member.
 19. The system of claim 18, wherein are least one ofthe first mounting portion and the second mounting portion areadjustably fixed to a spacing bar to enable adjustment of the spacebetween the first mounting portion and second mounting portion.
 20. Thesystem of claim 17, wherein the second mounting portion is spaced apartfrom the first mounting portion a distance greater than the distancefrom the end portion of the fishing pole to the distal end of a gripportion of the fishing pole.
 21. The system of claim 20, wherein thesecond mounting portion is spaced apart from the first mounting portiona distance less than the distance from the end portion of the fishingpole to the first eyelet of the fishing pole.